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I. Tsodoulos, K.C. Stamoulis, C. Papachristodoulou, PS. Pavlides, K.G. Ioannides
I. Tsodoulos, K.C. Stamoulis, C. Papachristodoulou, PS. Pavlides, K.G. Ioannides


The aim of this study was to establish a chronological frame of paleoseismic events  of Gyrtoni Fault, (Thessaly, Central Greece), with the use of OSL dating method. The Gyrtoni Fault, defines the north-eastern boundary of the Middle-Late Quaternary Tyrnavos Basin, and was previously investigated with geological methods. Twenty five fluvial-colluvial sediment and pottery samples were collected from two paleoseismological trenches, excavated along the Gyrtoni Fault, from both the upthrown and the downthrown fault blocks. Optically Stimulated Luminescence (OSL) dating was applied to coarse grain quartz using the single-aliquot regenerative-dose (SAR) protocol. Investigations of luminescence characteristics using various tests confirmed the suitability of the material for OSL dating using the SAR protocol. Radioactivity measurements were performed in order to estimate the annual dose rate
of the surrounding soils to which the quartz grains were submitted during the burial period of the collected samples. The estimated OSL ages agreed well with the available stratigraphical data, and archaeological evidence. The occurrence of three surface faulting events in a time span between 1.42 ± 0.06 ka and 5.59 ± 0.13 ka was revealed while an earlier faulting event (fourth) was also recognized to be older than 5.59 ± 0.13 ka.


OSL dating; SAR protocol; annual dose rate; paleoseismology;

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Adamiec, G. and Aitken, M.J., 1998. Dose-rate conversion factors: update, Ancient TL, 16, 37-49.

Aitken, M.J., 1998. An Introduction to Optical Dating. Oxford University Press, Oxford.

Bøtter-Jensen, L., Thomsen, K.J. and Jain, M. 2010. Review of optically stimulated luminescence (OSL)

instrumental developments for retrospective dosimetry, Radiation Measurements, 45, 253-257.

Bronk Ramsey, C., 1995. Radiocarbon calibration and analysis of stratigraphy: the OxCal program,

Radiocarbon, 37(2), 425-430.

Caputo, R. and Helly, B., 2005a. The Holocene activity of the Rodia Fault, Central Greece, Journal

of Geodynamics, 40(2-3), 153-169.

Caputo, R., Helly, B., Pavlides, S. and Papadopoulos, G., 2004. Palaeoseismological investigation

of the Tyrnavos Fault (Thessaly Central Greece), Tectonophysics, 394, 1-20.

Caputo, R., Helly, B., Pavlides, S. and Papadopoulos, G., 2006. Archaeo- and palaeoseismological

investigations in Northern Thessaly (Greece): Insights for the seismic potential of the region,

Natural Hazards, 39, 195-212.

Chatzipetros, A., Pavlides, S. and Mountrakis, D., 1998. Understanding the 13 May 1995 western

Macedonia earthquake: a paleoseismological approach, Journal of Geodynamics, 26, 327-339.

Chen, Y.G., Chen, Y.W., Chen, W.S., Zhang, J.F., Zhaoc, H., Zhou, L.P. and Li, S.H., 2003.

Preliminary results of long-term slip rates of 1999 earthquake fault by luminescence and

radiocarbon dating, Quaternary Science Reviews, 22, 1213-1221.

Choi, J.H., Kim, J.W., Murray, A.S., Hong, D.G., Change, H.W. and Cheong, C.-S., 2009. OSL

dating of marine terrace sediments on the southeastern coast of Korea with implications for

Quaternary tectonics, Quaternary International, 199, 3-14.

Constantin, D., Begy, R., Vasiliniuc, S., Panaiotu, C., Necula, C., Codrea V. and Timar-Gabor, A.,

High-resolution OSL dating of the Costines¸ ti section (Dobrogea, SE Romania) using

fine and coarse quartz, Quaternary International, 334-335, 20-29.

Demitrack, A., 1986. The Late Quaternary geologic histoty of the Larissa Plain, Thessaly, Greece:

Tectonic, Climatic and Human Impact on the Landscape, Ph .D. dissertation, Stanford

University, CA. Ann Arbor, Michigan: University Microfilms.

Duller, G.A.T., 2003. Distinguishing quartz and feldspar in single grain luminescence measurements,

Radiation Measurements, 37, 161-165.

Duller, G.A.T., 2015. The Analyst software package for luminescence data: overview and recent

improvements, Ancient TL, 33(1), 35-42.

Fattahi, M., Nazari, H., Bateman, M.D., Meyere, B., Sébrier, M., Talebian, M., Le Dortz, K.,

Foroutan, M., Ahmadi Givi, F. and Ghorashi, M., 2010. Refining the OSL age of the last

earthquake on the Dheshir fault, Central Iran, Quaternary Geochronology, 5(2-3), 286-292.

Galbraith, R.F. and Roberts, R.G., 2012. Statistical aspects of equivalent dose and error calculation

and display in OSL dating: an overview and some recommendations, Quaternary

Geochronology, 11, 1-27.

Huntley, D.J., Godfrey-Smith, D.I. and Thewalt, M.L.W., 1985. Optical dating of sediments, Nature,

, 105-107.

Liritzis, I., Stamoulis, K., Papachristodoulou, C. and Ioannides, K., 2013. A re-evaluation of

radiation dose-rate conversion factors, Mediterr. Archaeol. Archaeom., 13, 1-15.

McCalpin, J.P., 2009a. Field techniques in paleoseismology. Paleoseismology in extensional tectonic

environments. In: McCalpin, J.P., eds., Paleoseismology, Academic Press, San Diego, 161-269.

McCalpin, J.P., 2009b. Application of Paleoseismic Data to Seismic Hazard Assessment and

Neotectonic Research. In: McCalpin, J.P., eds., Paleoseismology, Academic Press, San Diego,


Moro, M., Gori, S., Falcucci, E., Saroli, M., Galadini, F. and Salvi, S., 2013. Historical earthquakes

and variable kinematic behaviour of the 2009 L'Aquila seismic event (central Italy) causative

fault, revealed by paleoseismological investigations, Tectonophysics, 583, 131-144.

Murray, A.S., Marten, R., Johnston, A. and Martin, P., 1987. Analysis for naturally occurring

radionuclides at environmental concentrations by gamma spectrometry, Journal of

Radioanalytical and Nuclear Chemistry, 115, 263-288.

Murray, A.S. and Olley, J.M., 2002. Precision and accuracy in the optically stimulated luminescence

dating of sedimentary quartz, Geochronometria, 21, 1-16.

Murray, A.S. and Wintle, A.G., 2003. The single aliquot regenerative dose protocol: potential for

improvements in reliability, Radiation Measurements, 37, 377-381.

Olley, J.M., Pietsch, T. and Roberts, R.G., 2004. Optical dating of Holocene sediments from a

variety of geomorphic setting using single grains of quartz, Geomorphology, 60, 337-358.

Pavlides, S., Caputo, R., Sboras, S., Chatzipetros, A., Papathanasiou, G. and Valkaniotis, S., 2010.

The Greek catalogue of active faults and database of seismogenic sources, Bulletin of the

Geological Society of Greece, XLIII/1, 486-494.

Papazachos, B.C. and Papazachou, C., 1997. The Earthquakes of Greece, Editions ZITI, Thessaloniki.

Porat, N., Wintle, A.G., Amit, R. and Enzel, Y., 1996. Late Quaternary earthquake chronology from

luminescence dating of colluvial and alluvial deposits of the Arava Valley, Israel, Quaternary

Research, 46, 107-117.

Prescott, J.R. and Hutton, J.T., 1994. Cosmic ray contribution to dose rates for luminescence and ESR

dating: large depths and long-term time variations, Radiation Measurements, 23, 497-500.

Rowan, A.V., Roberts, H.M., Jones, M.A., Duller, G.A.T., Covey-Crump, S.J. and Brocklehurst,

S.H., 2012. Optically stimulated luminescence dating of glaciofluvial sediments on the

Canterbury Plains, South Island, New Zealand, Quaternary Geochronology, 8, 10-22.

Tsodoulos, I., Chatzipetros, A., Koukouvelas, I., Caputo, R., Pavlides, S., Stamoulis, K., Gallousi,

C., Papachristodoulou, C., Belesis, A., Kalyvas, D. and Ioannides, K., 2016.

Palaeoseismological investigation of the Gyrtoni Fault (Thessaly, Central Greece), Submitted

for the proceedings of the 14th Intern. Conference, Thessaloniki, May 2016.

Van Andel, T.H., Zangger, E. and Demitrack, A., 1990. Land use and soil erosion in prehistoric and

historical Greece, J. Field Archaeology, 17, 379-376.

Vanneste, K., Radulov, A., De Martini, P., Nikolov, G., Petermans, T., Verbeeck, K., Camelbeeck,

T., Pantosti, D., Dimitrov, D. and Shanov, S., 2006. Paleoseismologic investigation of the

fault rupture of the 14 April 1928 Chirpan earthquake (M 6.8), southern Bulgaria, J. Geophys.

Res., 111, B01303.

Wallinga, J., 2002a. Optically stimulated luminescence dating of fluvial deposits: a review, Boreas,

, 303-322.

Wallinga, J., 2002b. De t e c t ion of OSL age overestimation using single-aliquot techniques,

Geochronometria, 21, 17-20.


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